KR100668663B1 - Apparatus and method for automatic gain control of mobile station in ofdm system - Google Patents

Abstract

An apparatus and a method for an automatic gain control of a mobile station in an OFDM(Orthogonal Frequency Division Multiplex) system are provided to set a gain of an amplifier by using a preamble reference signal in a preamble block and by using a pilot signal in a data symbol block. An amplification/attenuation unit(110) amplifies and attenuates a received forward frame signal according to a particular gain value. An analog/digital converter(103) is used for converting the amplified/attenuated signal to digital data. An FFT(Fast Fourier Transform) unit(104) transforms the digital data to data of a frequency domain. A synchronization unit(112) provides preamble block and data symbol block information of the received forward frame signal. A channel estimator(108) measures and outputs the preamble power and the pilot signal power in the preamble block and in the data symbol block, respectively. A gain control unit(111) sets a particular gain value according to the preamble block and the data symbol block.

Description

Apparatus and method for Automatic Gain Control of mobile station in OFDM system

1 is a block diagram of an automatic gain control apparatus for a mobile station in a general OFDM system.

2 illustrates a frame structure of an OFDM-TDD system.

3 is a diagram illustrating a reference signal and an error signal of a pilot channel in a symbol pilot channel estimator.

4 is a block diagram of an automatic gain control apparatus for a mobile station in an OFDM system according to an embodiment of the present invention.

5 is a gain setting period of the automatic gain control device according to the present invention.

6 is a control flowchart for automatic gain control in the gain control unit of the automatic gain controller according to the first embodiment of the present invention.

7 is a control flowchart for automatic gain control in the gain control unit of the automatic gain controller according to the second embodiment of the present invention.

8 shows a subcarrier of a data symbol.

The present invention relates to an apparatus and method for automatic gain control of a mobile station in an OFDM system. More particularly, the present invention provides an automatic gain controller (AGC) for automatically controlling gain of a mobile station receiving end of an OFDM system. An apparatus and method for automatic gain control of a mobile station in an OFDM system for measuring power of a reference signal of a base station and adjusting amplification gain of an automatically received analog frame signal according to a difference between a measured power intensity and a threshold of the reference signal. It is about.

A mobile station of an OFDM system uses a preamble signal located at the head of an OFDM frame as a reference signal, measures the power of the received preamble signal, and measures the power of the preamble signal according to the difference between the measured power value and the threshold value of the analog amplifier (AMP). To control the gain.

However, in the conventional method, when the period of the frame is short and the moving speed of the mobile station is limited (for example, 3 km or less), the given environment is estimated using only the preamble signal, and the gain of the amplifier AMP of the automatic gain device is obtained. It is not a problem to apply the same gain to the data symbol section by setting the amplification unit to the set gain, but when the length of the frame becomes long or the mobile station moves at a high speed, the channel environment estimated in the preamble section is changed to the next data symbol section. The same applies to the problem that includes many errors.

1 is a block diagram of an automatic gain control apparatus for a mobile station in a general OFDM system. 1 shows a receiver of a general mobile station of an OFDM system series such as 802.11. The frame signal (analog signal) received from the mobile station through the RF unit 101 is a signal of the magnitude required by the analog-to-digital converter (ADC) 103 through the amplification unit 110 of the automatic gain controller 02. Is amplified / attenuated by the ADC 103 and converted into digital data through the ADC 103. The digital data converted in the OFDM system is converted into data in the frequency domain through the fast Fourier transform (FFT) unit 104.

Also, in the preamble section, the receiving cell of the channel estimator 105 uses the serving cell preamble channel estimator 108 to measure the received power of the preamble to compensate for the distortion of the signal generated during the radio wave, and the gain of the automatic gain controller 102 is measured. The control unit 111 compares the known threshold value with the measured power value of the preamble, and sets the gain of the amplification unit 110 of the automatic gain controller 102 according to the difference value thereof. ).

In the following data symbol interval, the same gain is maintained while being applied. This method operates as an automatic gain control device of a frame period.

2 shows a frame structure of a typical OFDM-TDD system. First, the head part of the frame has a preamble, which is used for initial synchronization setting, cell search, or channel estimation. Subsequent DL and UL data symbols are data subcarriers for data allocation as shown in FIG. It consists of pilot subcarriers for transmitting pilot information for estimation.

In the data symbol section, the serving cell symbol pilot channel estimator 109 of the channel estimator 105 measures the phase and amplitude or power of the pilot signal included in the received data symbol as shown in FIG. The frequency distortion is measured in accordance with the difference from the reference pilot signal, and accordingly the parameter of the equalizer is set to compensate for the phase error and the amplitude error. The data converted into the frequency domain passes through the set equalizer 106 to compensate for the frequency distortion. This demodulation-compensated data is actually demodulated in the OFDM system by performing the actual demodulation in the decoder 107.

3 is a diagram illustrating a reference signal and an error signal of a pilot channel in a symbol pilot channel estimator. The already known pilot signal (reference signal) is P1, but the received signal is P2. According to the difference between P1 (reference signal) and P2 (receive signal), the symbol pilot channel estimator 109 calculates a phase error, calculates a power error, and sets a parameter for compensating for the frequency distortion. In this way, the distortion of the signal generated during propagation is calculated for all symbol pilot carrier information, and the channel compensation values are estimated in all frequency bands of the symbol using an interpolator, and the equalizer ( Set the parameter of 106). Existing data that has been transformed into the frequency domain by passing through the fast Fourier transform (FFT) unit 104 passes through the set equalizer 106 to compensate for the frequency distortion. The compensated data is actually demodulated and decoded at the decoder 107 in the general demodulation process of the OFDM system.

However, in the conventional OFDM system, the automatic gain control method of the mobile station estimates the propagation channel using only the preamble signal when the frame period is short and the moving speed of the mobile station is limited. Accordingly, the gain control unit 111 amplifies the amplification unit 110. Although there is no problem in the operation of the automatic gain controller 102 for setting the gain, the channel environment of the preamble section and the data symbol section is severe when the frame length becomes long or the mobile station moves at high speed. Therefore, applying the channel environment estimated in the preamble section to the data symbol section has a problem of generating many errors.

In order to solve this problem, the present invention, in the OFDM system, the mobile station receives the forward frame signal from the base station, and measures the reception strength of the reference signal in the preamble section and the data symbol section of the frame signal, respectively, The gain setting of the amplifier of the automatic gain controller (AGC) is set by using the preamble reference signal in the preamble section according to the difference between the threshold and the threshold value. In the case of a general data symbol section, the pilot signal included in the data symbol is used. The present invention provides an apparatus and method for automatic gain control of a mobile station in an OFDM system in which the gain setting of the amplification unit for the automatic gain control apparatus is performed, thereby enabling automatic gain control in a short period of a symbol interval.

In order to achieve the above technical problem, the present invention provides an automatic gain control apparatus for a mobile station in an orthogonal frequency division multiplexing (OFDM) system, comprising: an amplifier for amplifying / attenuating a received forward frame signal according to a specific gain value; An analog / digital converter (ADC) for converting the amplified / attenuated signal from the amplifier into digital data; An FFT unit converting the digital data converted by the ADC into fast frequency Fourier transform (FFT) to data in a frequency domain; A synchronizer for providing preamble interval and data symbol interval information of the received forward frame signal; A channel estimator measuring and outputting the power of the preamble in the preamble section based on the information provided by the synchronizer, and measuring and outputting the power of the pilot signal included in the data symbol in the data symbol section; And a power value of the preamble from the channel estimator in the preamble section, and a power value of a pilot signal from the channel estimator in the data symbol section, and pre-sampling the specific gain value of the amplifier according to a difference from the threshold value. And a gain control unit for setting each data symbol period.

In order to achieve the second technical problem, the present invention provides an automatic gain control method of a mobile station in an orthogonal frequency division multiplexing (OFDM) system, the method comprising: (a) distinguishing a preamble section and a data symbol section of a received frame signal; step; (b) As a result of the classification, if the current symbol is a preamble section, the power value of the preamble signal is measured, and the power value and the threshold value P _REF of the measured preamble signal are compared, and a specific gain value according to the difference (gain value = Amplifying the received frame signal based on a threshold value-a preamble power value; And (c) if the pilot symbol is present in the data symbol interval by checking the presence or absence of a pilot carrier in the data symbol interval as a result of the classification, the average power value of the pilot carrier included in the data symbol is measured and measured. Comparing the average power value of the pilot carrier with a threshold and amplifying the received frame signal based on a specific gain value (gain value = threshold value-pilot average power value) according to the difference.

In addition, in the method of the present invention, after the step (c), if there is no pilot carrier in the data symbol period, the channel is measured using the pilot carrier while maintaining the existing gain or in the data symbol period in which the pilot carrier exists. The method may further include predicting / estimating a channel in the data symbol without a pilot carrier using the information and automatically controlling the gain according to the predicted / estimated gain value.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

4 is a block diagram of an automatic gain control apparatus for a mobile station in an OFDM system according to an embodiment of the present invention.

In the OFDM system according to the present invention, an automatic gain control apparatus for a mobile station includes an RF unit 101 and a gain control unit 111 for receiving a forward frame signal (analog signal) from a base station to a mobile station in the OFDM system. The amplification unit (AMP) 110 for amplifying / attenuating the received analog signal and converting it into a signal of an acceptable size in the analog / digital conversion unit (ADC) 103, the amplification / attenuation from the amplification unit 110. A frequency domain by performing fast Fourier transform (FFT) on the digital data converted by the analog / digital converter (ADC) 103 and the analog / digital converter (ADC) 103 to convert the analog signal into digital data. A fast Fourier transform (FFT) unit 104 for converting the data into data, a synchronization unit 112 for distinguishing the preamble section and the data symbol section information of the frame signal, and a preamble section in the preamble section. Serving cell preamble channel estimator 108 for measuring the power of the reamble and the like, and serving cell symbol pilot channel estimator 109 for measuring the characteristics of the channel using the pilot signal included in the data symbol in the data symbol period In the channel estimator 105 and the preamble section, the serving cell preamble channel estimator 108 receives the power value of the preamble, and the data symbol section receives the pilot signal power value from the symbol pilot channel estimator 109. Compensating for the phase error and the amplitude error of the data converted into the frequency domain from the gain control unit 111 and the fast Fourier transform (FFT) unit 104 for setting the gain of the amplifier 110 according to the difference between Equalizer 106 for compensating for the frequency distortion by means of an equalizer parameter, and data for which the frequency distortion is compensated from the equalizer 106 A decoder 107 for.

5 is a gain setting period of the automatic gain control device according to the present invention.

As shown in FIG. 5, the control cell signal generated by the gain control unit 111 of the automatic gain controller 102 in order to set the gain of the amplification unit 110, in the preamble section, is the serving cell preamble channel estimator as before. Comparing the preamble power value corresponding to the signal strength of the preamble measured in step 108 with a threshold value, the gain of the amplifier 110 is set according to the difference value, and in the data symbol section, the state of the channel is displayed during the data symbol section. The pilot power value corresponding to the signal strength of the pilot carrier measured by the serving cell symbol pilot channel estimator 109 using the pilot carrier for identification is used.

In the data symbol section, the gain control unit 111 of the automatic gain controller 102 calculates an average power value of the pilot carrier using the power strength of the pilot carrier measured by the symbol pilot channel estimator 109.

Automatic gain of the symbol period by comparing the power strength and the threshold value of the pilot carrier calculated as in Equation 1) and setting the gain of the amplifier 110 of the automatic gain controller 102 in inverse proportion to the difference value thereof The controller 102 is operating.

8 shows a subcarrier in a data symbol, the pilot carriers are indicated by black circles, and the data carriers are indicated by white circles.

If no pilot carrier exists in all symbols as shown in FIG. 8 (b), the channel information of the next symbol is maintained by maintaining the existing gain or using channel information measured in the symbol in which the pilot carrier exists. It requires the function of predicting or estimating, and commonly used estimation techniques can be applied.

The present invention maintains an existing gain, particularly in a data symbol period without pilot carriers, or in a data symbol without pilot carriers using channel information measured using the pilot carrier in a data symbol period in which pilot carriers exist. The channel is predicted / estimated and used, and accordingly, the automatic gain controller 102 operates.

In addition, as shown in FIG. 7, in another implementation method of setting the gain of the amplifier 110, the gain control unit 111 of the automatic gain controller 102 is the serving cell preamble channel as before in the preamble period. The preamble power value corresponding to the signal strength of the preamble measured by the estimator 108 is compared with a threshold value, the gain of the amplifier 110 is set according to the difference value, and the automatic gain controller 102 is performed in the data symbol section. Gain controller 111 calculates an average power value of the pilot carrier using the power strength of the pilot carrier (pilot signal) measured by the pilot channel estimator 109, and is calculated as shown in Equation 2) If the power value of the pilot signal is less than the threshold value, set the gain increased by a certain amount than the previously set gain (e.g., gain value = gain value + 1). dB) If the power value of the pilot signal is larger than the threshold value, a gain reduced by a predetermined amount from the previously set gain is set (eg, gain value = gain value-1 dB). By using this method, the automatic gain controller 102 of the symbol period becomes simpler.

6 is a control flowchart for automatic gain control in the gain control unit 111 of the automatic gain controller 102 according to the first embodiment of the present invention.

Receives the forward frame signal from the RF unit 101 of the mobile station and converts it into data in the frequency domain through the amplification unit 110, the analog / digital conversion unit (ADC) 103, and the fast Fourier transform unit (FFT) unit 104. do.

Thereafter, the synchronization unit 112 provides information on the preamble section and the data symbol section of the frame to check whether the symbol is a DL symbol section (501), and determines whether the current symbol is a preamble section (502) in the waiting process.

In the case of the preamble section, a process 503 of checking the power value of the preamble signal measured by the preamble channel estimator 108 and comparing the measured power value of the preamble signal with a threshold value P _{REF are used to} determine the difference. Determining a gain value (gain value = threshold value-preamble power value) 504 and transferring the gain value determined by the gain control unit 111 to the amplifying unit 110 (509). .

In the case of a data symbol section that is not a preamble section, the presence or absence of a pilot carrier in the data symbol is checked (505). If there is a pilot carrier in the data symbol section, the pilot pilot measured by the symbol pilot channel estimator 109 A step 506 of checking the average power strength and comparing the measured average power value of the pilot carriers with the threshold value P _REF determine the gain value (gain value = threshold value-pilot average power value) according to the difference. And a step 509 of transferring the gain value determined by the gain control unit 111 to the amplifying unit 110.

In addition, when there is no pilot carrier in the data symbol period, the existing gain is maintained, or in the data symbol period in which the pilot carrier exists, the channel information measured using the pilot carrier is used in the data symbol without the pilot carrier. The channel is predicted / estimated, and accordingly, the auto gain controller 102 is operated by transmitting the predicted / estimated gain value to the amplifier 110 (operation 508).

Therefore, the amplification unit 110 amplifies / attenuates the frame signal (analog signal) received from the RF unit 101 according to the gain value determined by the gain control unit 111 to perform automatic gain control.

7 is a control flowchart for automatic gain control in the gain control unit of the automatic gain controller according to the second embodiment of the present invention.

In the waiting process, information on the preamble section and the data symbol section of the frame is classified and checked for a DL symbol section (601), and the channel estimation unit 105 determines whether the current symbol is a preamble section (602).

In the case of the preamble section, a step 603 of checking the power value of the preamble signal measured by the preamble channel estimator 108 and comparing the measured power value of the preamble signal with a threshold value P _{REF are used to} determine the difference. Determining a gain value (gain value = threshold value-preamble power value) 604 and transferring the gain value determined by the gain control unit 111 to the amplifying unit 110 (611). .

In the case of a data symbol interval, the presence or absence of a pilot carrier in the data symbol is checked (605). When there is a pilot carrier in the data symbol interval, the average power strength of the pilot carrier measured by the symbol pilot channel estimator 109 is checked. In step 606, if the measured average power of the pilot carrier is equal to or greater than the threshold value P _REF (607), a predetermined gain is decreased from a preset gain value (e.g., gain value = gain). Value-1 dB) 609, if the measured average power value of the pilot carrier is smaller than the threshold, increasing the constant gain at a predetermined gain value (e.g., gain value = gain value + 1 dB) After the execution, the control unit 611 transmits the gain to the amplification unit 110 to control the automatic gain.

In addition, by checking the presence or absence of a pilot carrier in the data symbol (605), if there is no pilot carrier in the data symbol period, the existing gain is maintained or measured using the pilot carrier in the data symbol period in which the pilot carrier exists. Using one channel information, a channel in a data symbol without a pilot carrier is predicted / estimated, and accordingly, the predicted / estimated gain value is transmitted to the amplifier 110 to operate the auto gain controller 102. 610.

Therefore, the amplifier 110 amplifies / attenuates the frame signal (analog signal) received by the RF unit 101 according to the gain value determined by the gain control unit 111 to perform automatic gain control.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. . Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

As described above, according to the present invention, in the OFDM system, the mobile station measures the reception strength of the reference signal in the preamble section and the data symbol section of the forward frame signal received from the base station, and the difference between the reception strength and the threshold value of the reference signal. By controlling the amplification part of the automatic gain controller (automatic gain control device) according to the present invention, it adapts quickly to rapid channel changes and provides robust communication system in various fading environments to quickly adapt to the mobile station channel environment of the OFDM system. It has the effect of providing control.

Claims (8)

An automatic gain control apparatus for a mobile station in an orthogonal frequency division multiplexing (OFDM) system, An amplifier for amplifying / attenuating the received forward frame signal according to a specific gain value; An analog / digital converter (ADC) for converting the amplified / attenuated signal from the amplifier into digital data; An FFT unit converting the digital data converted by the ADC into fast frequency Fourier transform (FFT) to data in a frequency domain; A synchronizer for providing preamble interval and data symbol interval information of the received forward frame signal; A channel estimator measuring and outputting the power of the preamble in the preamble section based on the information provided by the synchronizer, and measuring and outputting the power of the pilot signal included in the data symbol in the data symbol section; And In the preamble section, the preamble section receives the power value of the preamble from the channel estimator, and receives a power value of the pilot signal from the channel estimator in the data symbol section. Gain control unit for setting each data symbol section Automatic gain control apparatus of a mobile station in an OFDM system comprising a. The method of claim 1, The channel estimator, A serving cell preamble channel estimator for measuring the power of the preamble in the preamble section; And Serving cell symbol pilot channel estimator for measuring power of pilot signal included in data symbol in data symbol section Automatic gain control apparatus of a mobile station in an OFDM system comprising a. The method according to claim 1 or 2, An equalizer for compensating for the frequency distortion by the equalizer parameters for compensating for phase error and amplitude error of the data converted from the FFT unit into the frequency domain; And And a decoder for demodulating the data whose frequency distortion is compensated from the equalizer. A method for automatic gain control of a mobile station in an orthogonal frequency division multiplexing (OFDM) system, (a) distinguishing a preamble section and a data symbol section of the received frame signal; (b) As a result of the classification, if the current symbol is a preamble section, the power value of the preamble signal is measured, and the power value and the threshold value P _REF of the measured preamble signal are compared, and a specific gain value according to the difference (gain value = Amplifying the received frame signal based on a threshold value-a preamble power value; And (c) If the result of the classification, if the data symbol interval is the presence of a pilot carrier in the data symbol, if there is a pilot carrier in the data symbol interval, the average power value of the pilot carrier included in the data symbol is measured and measured Comparing the average power value of the carrier with a threshold value and amplifying the received frame signal based on a specific gain value (gain value = threshold value-pilot average power value) according to the difference; Automatic gain control method of a mobile station in an OFDM system comprising a. The method of claim 4, wherein After step (c), If there is no pilot carrier in the data symbol period, the existing gain is maintained, or the channel information is estimated from the data symbol without pilot carrier using the channel information measured using the pilot carrier in the data symbol period in which the pilot carrier exists. Automatic Gain Control Based On Estimated / Estimate Gain Value Automatic gain control method of the mobile station in the OFDM system further comprising. The method of claim 4, wherein Step (c) is, When there is a pilot carrier in the data symbol period, the average power value of the pilot carrier included in the data symbol is measured, and the average power value of the measured pilot carrier is compared with a threshold to increase or decrease a constant gain at a predetermined gain value. An automatic gain control method of a mobile station in an OFDM system, characterized in that. The method of claim 6, When the average power value of the measured pilot carrier is equal to or larger than the threshold value, a predetermined gain is decreased from a predetermined gain value (eg, a gain value = gain value -1 dB) to amplify the received frame signal. An automatic gain control method of a mobile station in an OFDM system. The method of claim 6, When the average power value of the measured pilot carrier is smaller than the threshold value, a predetermined gain is increased from the preset gain value (eg, gain value = gain value + 1 dB) to amplify the received frame signal. Automatic Gain Control Method of Mobile Station in OFDM System.

Images